Abstract: Dual axis, beam-steering devices are disclosed. An exemplary device includes a support platform having a top surface. A reflective surface is coupled to the top surface of the support platform. First and second galvanometers are coupled via respective linkages to the support platform such that the first galvanometer rotates the support platform about a first rotational axis, and the second galvanometer rotates the support platform about a second rotational axis that is orthogonal to the first rotational axis. The support platform can be simultaneously rotated with respect to both the first rotational axis and the second rotational axis to steer a beam of electromagnetic energy (e.g. light beam) reflected by the reflective surface.

Abstract: In particular embodiments, the present disclosure provides systems and methods for imaging a subject using radiation emitted from a laser produced plasma generating by irradiating a target with a laser. In particular examples, the target includes at least one radiation enhancing component, such as a fluor, cap, or wire. In further examples, the target has a metal layer and an internal surface defining an internal apex, the internal apex of less than about 15 ?m, such as less than about 1 ?m. The targets may take a variety of shapes, including cones, pyramids, and hemispheres. Certain aspects of the present disclosure provide improved imaging of a subject, such as improved medical images of a radiation dose than typical conventional methods and systems.

Abstract: The invention provides a method of detecting a chemical species with an oscillating cantilevered probe. A cantilevered beam is driven into oscillation with a drive mechanism coupled to the cantilevered beam. A free end of the oscillating cantilevered beam is tapped against a mechanical stop coupled to a base end of the cantilevered beam. An amplitude of the oscillating cantilevered beam is measured with a sense mechanism coupled to the cantilevered beam. A treated portion of the cantilevered beam is exposed to the chemical species, wherein the cantilevered beam bends when exposed to the chemical species. A second amplitude of the oscillating cantilevered beam is measured, and the chemical species is determined based on the measured amplitudes.

Abstract: Methods and apparatus for measuring the dielectric relaxation properties of a sample are disclosed. Methods are disclosed for amplifying or controlling the dielectric relaxation properties of a sample by adding particles, such as functionally coated particles. In certain methods, the particles amplify or control the dielectric relaxation properties of the sample by interacting with counter ions in the sample. In some embodiments, the methods use a dielectric relaxation spectroscopy apparatus with remote electrodes.